How To Set Up the code-server Cloud IDE Platform on DigitalOcean Kubernetes | DigitalOcean

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With developer tools moving to the cloud, creation and adoption of cloud IDE (Integrated Development Environment) platforms is growing. Cloud IDEs allow for real-time collaboration between developer teams to work in a unified development environment that minimizes incompatibilities and enhances productivity. Accessible through web browsers, cloud IDEs are available from every type of modern device. Another advantage of a cloud IDE is the possibility to leverage the power of a cluster, which can greatly exceed the processing power of a single development computer.

code-server is Microsoft Visual Studio Code running on a remote server and accessible directly from your browser. Visual Studio Code is a modern code editor with integrated Git support, a code debugger, smart autocompletion, and customizable and extensible features. This means that you can use various devices, running different operating systems, and always have a consistent development environment on hand.

In this tutorial, you will set up the code-server cloud IDE platform on your DigitalOcean Kubernetes cluster and expose it at your domain, secured with Let’s Encrypt certificates. In the end, you’ll have Microsoft Visual Studio Code running on your Kubernetes cluster, available via HTTPS and protected by a password.


  • A DigitalOcean Kubernetes cluster with your connection configured as the kubectl default. Instructions on how to configure kubectl are shown under the Connect to your Cluster step when you create your cluster. To create a Kubernetes cluster on DigitalOcean, see Kubernetes Quickstart.

  • The Helm package manager installed on your local machine, and Tiller installed on your cluster. To do this, complete Steps 1 and 2 of the How To Install Software on Kubernetes Clusters with the Helm Package Manager tutorial.

  • The Nginx Ingress Controller and Cert-Manager installed on your cluster using Helm in order to expose code-server using Ingress Resources. To do this, follow How to Set Up an Nginx Ingress on DigitalOcean Kubernetes Using Helm.

  • A fully registered domain name to host code-server, pointed at the Load Balancer used by the Nginx Ingress. This tutorial will use code-server.your_domain throughout. You can purchase a domain name on Namecheap, get one for free on Freenom, or use the domain registrar of your choice. This domain name must differ from the one used in the How To Set Up an Nginx Ingress on DigitalOcean Kubernetes prerequisite tutorial.

Step 1 – Installing And Exposing code-server

In this section, you’ll install code-server to your DigitalOcean Kubernetes cluster and expose it at your domain, using the Nginx Ingress controller. You will also set up a password for admittance.

You’ll store the deployment configuration on your local machine, in a file named code-server.yaml. Create it using the following command:

Add the following lines to the file:

apiVersion: v1 kind: Namespace metadata: name: code-server --- apiVersion: extensions/v1beta1 kind: Ingress metadata: name: code-server namespace: code-server annotations: nginx spec: rules: - host: code-server.your_domain http: paths: - backend: serviceName: code-server servicePort: 80 --- apiVersion: v1 kind: Service metadata: name: code-server namespace: code-server spec: ports: - port: 80 targetPort: 8443 selector: app: code-server --- apiVersion: extensions/v1beta1 kind: Deployment metadata: labels: app: code-server name: code-server namespace: code-server spec: selector: matchLabels: app: code-server replicas: 1 template: metadata: labels: app: code-server spec: containers: - image: codercom/code-server imagePullPolicy: Always name: code-server args: ["--allow-http"] ports: - containerPort: 8443 env: - name: PASSWORD value: "your_password" 

This configuration defines a Namespace, a Deployment, a Service, and an Ingress. The Namespace is called code-server and separates the code-server installation from the rest of your cluster. The Deployment consists of one replica of the codercom/code-server Docker image, and an environment variable named PASSWORD that specifies the password for access.

The code-server Service internally exposes the pod (created as a part of the Deployment) at port 80. The Ingress defined in the file specifies that the Ingress Controller is nginx, and that the code-server.your_domain domain will be served from the Service.

Remember to replace your_password with your desired password, and code-server.your_domain with your desired domain, pointed to the Load Balancer of the Nginx Ingress Controller.

Then, create the configuration in Kubernetes by running the following command:

You’ll see the following output:

namespace/code-server created ingress.extensions/code-server created service/code-server created deployment.extensions/code-server created 

You can watch the code-server pod become available by running:

The output will look like:

NAME READY STATUS RESTARTS AGE code-server-f85d9bfc9-j7hq6 0/1 ContainerCreating 0 1m 

As soon as the status becomes Running, code-server has finished installing to your cluster.

Navigate to your domain in your browser. You’ll see the login prompt for code-server.

Enter the password you set in code-server.yaml and press Enter IDE. You’ll enter code-server and immediately see its editor GUI.

You’ve installed code-server to your Kubernetes cluster and made it available at your domain. You have also verified that it requires you to log in with a password. Now, you’ll move on to secure it with free Let’s Encrypt certificates using Cert-Manager.

Step 2 – Securing the code-server Deployment

In this section, you will secure your code-server installation by applying Let’s Encrypt certificates to your Ingress, which Cert-Manager will automatically create. After completing this step, your code-server installation will be accessible via HTTPS.

Open code-server.yaml for editing:

Add the highlighted lines to your file, making sure to replace the example domain with your own:

apiVersion: v1 kind: Namespace metadata: name: code-server --- apiVersion: extensions/v1beta1 kind: Ingress metadata: name: code-server namespace: code-server annotations: nginx letsencrypt-prod spec: tls: - hosts: - code-server.your_domain secretName: codeserver-prod rules: - host: code-server.your_domain http: paths: - backend: serviceName: code-server servicePort: 80 ... 

First, you specify that the cluster-issuer that this Ingress will use to provision certificates will be letsencrypt-prod, created as a part of the prerequisites. Then, you specify the domains that will be secured under the tls section, as well as your name for the Secret holding them.

Apply the changes to your Kubernetes cluster by running the following command:

You’ll need to wait a few minutes for Let’s Encrypt to provision your certificate. In the meantime, you can track its progress by looking at the output of the following command:

When it finishes, the end of the output will look similar to this:

Events: Type Reason Age From Message ---- ------ ---- ---- ------- Normal Generated 2m49s cert-manager Generated new private key Normal GenerateSelfSigned 2m49s cert-manager Generated temporary self signed certificate Normal OrderCreated 2m49s cert-manager Created Order resource "codeserver-prod-4279678953" Normal OrderComplete 2m14s cert-manager Order "codeserver-prod-4279678953" completed successfully Normal CertIssued 2m14s cert-manager Certificate issued successfully 

You can now refresh your domain in your browser. You’ll see the padlock to the left of the address bar in your browser signifying that the connection is secure.

In this step, you have configured the Ingress to secure your code-server deployment. Now, you can review the code-server user interface.

Step 3 – Exploring the code-server Interface

In this section, you’ll explore some of the features of the code-server interface. Since code-server is Visual Studio Code running in the cloud, it has the same interface as the standalone desktop edition.

On the left-hand side of the IDE, there is a vertical row of six buttons opening the most commonly used features in a side panel known as the Activity Bar.

This bar is customizable so you can move these views to a different order or remove them from the bar. By default, the first view opens the Explorer panel that provides tree-like navigation of the project’s structure. You can manage your folders and files here-creating, deleting, moving, and renaming them as necessary. The next view provides access to a search and replace functionality.

Following this, in the default order, is your view of the source control systems, like Git. Visual Studio code also supports other source control providers and you can find further instructions for source control workflows with the editor in this documentation.

The debugger option on the Activity Bar provides all the common actions for debugging in the panel. Visual Studio Code comes with built-in support for the Node.js runtime debugger and any language that transpiles to Javascript. For other languages you can install extensions for the required debugger. You can save debugging configurations in the launch.json file.

The final view in the Activity Bar provides a menu to access available extensions on the Marketplace.

The central part of the GUI is your editor, which you can separate by tabs for your code editing. You can change your editing view to a grid system or to side-by-side files.

After creating a new file through the File menu, an empty file will open in a new tab, and once saved, the file’s name will be viewable in the Explorer side panel. Creating folders can be done by right clicking on the Explorer sidebar and pressing on New Folder. You can expand a folder by clicking on its name as well as dragging and dropping files and folders to upper parts of the hierarchy to move them to a new location.

You can gain access to a terminal by pressing CTRL+SHIFT+\, or by pressing on Terminal in the upper menu, and selecting New Terminal. The terminal will open in a lower panel and its working directory will be set to the project’s workspace, which contains the files and folders shown in the Explorer side panel.

You’ve explored a high-level overview of the code-server interface and reviewed some of the most commonly used features.


You now have code-server, a versatile cloud IDE, installed on your DigitalOcean Kubernetes cluster. You can work on your source code and documents with it individually or collaborate with your team. Running a cloud IDE on your cluster provides more power for testing, downloading, and more thorough or rigorous computing. For further information see the Visual Studio Code documentation on additional features and detailed instructions on other components of code-server.


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